Decisional-DNA based smart production performance analysis model

Shafiq, Syed Imran; Szczerbicki, Edward; Sanin, Cesar

Title: Decisional-DNA based smart production performance analysis model
Creator: Shafiq, Syed Imran; Szczerbicki, Edward; Sanin, Cesar
Relation: Cybernetics and Systems Vol. 50, Issue 2, p. 154-164
Publisher Link: http://dx.doi.org/10.1080/01969722.2019.1565122
Publisher: Taylor & Francis
Resource Type: journal article
Date: 2019
Description: In order to allocate resources effectively according to the production plan and to reduce disturbances, a framework for smart production performance analysis is proposed in this article. Decisional DNA based knowledge models of engineering objects, processes and factory are developed within the proposed framework. These models are the virtual representation of manufacturing resources, and with help of Internet of Things, are capable of capturing the past experience and formal decisions. A case study for the smart tool performance analysis is presented in which information of key tool parameters like tool life, surface integrity, tool forces and chip formation can be sensed in real-time, and predictions can be made according to specific requirements. This framework is capable of creating a cyber-physical conjoining of the bottom-level manufacturing resources and thus can work as a technological basis for smart factories and Industry 4.0.
Subject: decisional DNA; Virtual Engineering Factory (VEF); Virtual Engineering Object (VEO); Virtual Engineering Process (VEP); SDG 9; Sustainable Development Goals
Identifier: http://hdl.handle.net/1959.13/1467587
Identifier: uon:47851
Identifier: ISSN:0196-9722
Language: eng
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